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1 /*
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2 * Copyright 2010 OpenSourceCodeStewardshipFoundation
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3 *
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4 * Licensed under BSD
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5 */
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6
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7 #include <stdio.h>
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8 #include <stdlib.h>
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9 #include <malloc.h>
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10
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11 #include "Queue_impl/PrivateQueue.h"
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12 #include "Hash_impl/PrivateHash.h"
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13
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14 #include "VSs.h"
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15 #include "Measurement/VSs_Counter_Recording.h"
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16
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17 //==========================================================================
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18
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19 void
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20 VSs__init();
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21
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22 void
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23 VSs__init_Helper();
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24 //==========================================================================
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25
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26
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27
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28 //===========================================================================
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29
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30
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31 /*These are the library functions *called in the application*
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32 *
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33 *There's a pattern for the outside sequential code to interact with the
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34 * VMS_HW code.
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35 *The VMS_HW system is inside a boundary.. every VSs system is in its
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36 * own directory that contains the functions for each of the processor types.
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37 * One of the processor types is the "seed" processor that starts the
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38 * cascade of creating all the processors that do the work.
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39 *So, in the directory is a file called "EntryPoint.c" that contains the
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40 * function, named appropriately to the work performed, that the outside
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41 * sequential code calls. This function follows a pattern:
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42 *1) it calls VSs__init()
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43 *2) it creates the initial data for the seed processor, which is passed
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44 * in to the function
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45 *3) it creates the seed VSs processor, with the data to start it with.
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46 *4) it calls startVSsThenWaitUntilWorkDone
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47 *5) it gets the returnValue from the transfer struc and returns that
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48 * from the function
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49 *
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50 *For now, a new VSs system has to be created via VSs__init every
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51 * time an entry point function is called -- later, might add letting the
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52 * VSs system be created once, and let all the entry points just reuse
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53 * it -- want to be as simple as possible now, and see by using what makes
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54 * sense for later..
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55 */
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56
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57
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58
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59 //===========================================================================
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60
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61 /*This is the "border crossing" function -- the thing that crosses from the
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62 * outside world, into the VMS_HW world. It initializes and starts up the
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63 * VMS system, then creates one processor from the specified function and
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64 * puts it into the readyQ. From that point, that one function is resp.
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65 * for creating all the other processors, that then create others, and so
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66 * forth.
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67 *When all the processors, including the seed, have dissipated, then this
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68 * function returns. The results will have been written by side-effect via
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69 * pointers read from, or written into initData.
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70 *
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71 *NOTE: no Threads should exist in the outside program that might touch
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72 * any of the data reachable from initData passed in to here
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73 */
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74 void
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75 VSs__create_seed_slave_and_do_work( TopLevelFnPtr fnPtr, void *initData )
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76 { VSsSemEnv *semEnv;
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77 SlaveVP *seedSlv;
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78 VSsSemData *semData;
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79 VSsTaskStub *threadTaskStub, *parentTaskStub;
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80 int32* taskID;
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81
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82 VSs__init(); //normal multi-thd
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83
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84 semEnv = _VMSMasterEnv->semanticEnv;
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85
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86 //VSs starts with one processor, which is put into initial environ,
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87 // and which then calls create() to create more, thereby expanding work
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88 seedSlv = VSs__create_slave_helper( &VSs__run_thread , fnPtr, initData, semEnv, semEnv->nextCoreToGetNewSlv++ );
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89 //NB: this assumes that after VSs_init() nextCoreToGetNewSlv is still 0,
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90 // and also that there is more than 1 core.
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91
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92 //seed slave is a thread slave, so make a thread's task stub for it
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93 // and then make another to stand for the seed's parent task. Make
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94 // the parent be already ended, and have one child (the seed). This
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95 // will make the dissipate handler do the right thing when the seed
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96 // is dissipated.
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97 threadTaskStub = create_thread_task_stub( initData);
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98 parentTaskStub = create_thread_task_stub( NULL );
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99 parentTaskStub->isEnded = TRUE;
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100 parentTaskStub->numLiveChildThreads = 1; //so dissipate works for seed
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101 threadTaskStub->parentTaskStub = parentTaskStub;
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102 threadTaskStub->slaveAssignedTo = seedSlv;
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103
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104 taskID = VMS_WL__malloc(2 * sizeof(int32) );
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105 taskID[0] = 1;
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106 taskID[1] = -1;
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107 threadTaskStub->taskID = taskID;
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108
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109 semData = (VSsSemData *)seedSlv->semanticData;
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110 //seedVP is a thread, so has a permanent task
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111 semData->needsTaskAssigned = FALSE;
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112 semData->taskStub = threadTaskStub;
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113 semData->slaveType = ThreadSlv;
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114
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115 resume_slaveVP( seedSlv, semEnv ); //returns right away, just queues Slv
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116
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117 VMS_SS__start_the_work_then_wait_until_done(); //normal multi-thd
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118
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119 VSs__cleanup_after_shutdown();
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120 }
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121
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122
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123 int32
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124 VSs__giveMinWorkUnitCycles( float32 percentOverhead )
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125 {
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126 return MIN_WORK_UNIT_CYCLES;
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127 }
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128
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129 int32
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130 VSs__giveIdealNumWorkUnits()
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131 {
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132 return NUM_ANIM_SLOTS * NUM_CORES;
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133 }
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134
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135 int32
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136 VSs__give_number_of_cores_to_schedule_onto()
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137 {
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138 return NUM_CORES;
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139 }
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140
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141 /*For now, use TSC -- later, make these two macros with assembly that first
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142 * saves jump point, and second jumps back several times to get reliable time
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143 */
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144 void
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145 VSs__start_primitive()
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146 { saveLowTimeStampCountInto( ((VSsSemEnv *)(_VMSMasterEnv->semanticEnv))->
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147 primitiveStartTime );
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148 }
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149
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150 /*Just quick and dirty for now -- make reliable later
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151 * will want this to jump back several times -- to be sure cache is warm
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152 * because don't want comm time included in calc-time measurement -- and
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153 * also to throw out any "weird" values due to OS interrupt or TSC rollover
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154 */
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155 int32
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156 VSs__end_primitive_and_give_cycles()
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157 { int32 endTime, startTime;
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158 //TODO: fix by repeating time-measurement
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159 saveLowTimeStampCountInto( endTime );
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160 startTime =((VSsSemEnv*)(_VMSMasterEnv->semanticEnv))->primitiveStartTime;
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161 return (endTime - startTime);
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162 }
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163
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164 //===========================================================================
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165
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166 /*Initializes all the data-structures for a VSs system -- but doesn't
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167 * start it running yet!
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168 *
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169 *This runs in the main thread -- before VMS starts up
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170 *
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171 *This sets up the semantic layer over the VMS system
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172 *
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173 *First, calls VMS_Setup, then creates own environment, making it ready
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174 * for creating the seed processor and then starting the work.
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175 */
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176 void
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177 VSs__init()
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178 {
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179 VMS_SS__init();
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180 //masterEnv, a global var, now is partially set up by init_VMS
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181 // after this, have VMS_int__malloc and VMS_int__free available
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182
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183 VSs__init_Helper();
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184 }
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185
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186
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187 void idle_fn(void* data){
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188 while(1){
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189 VMS_int__suspend_slaveVP_and_send_req(currVP);
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190 }
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191 }
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192
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193 void
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194 VSs__init_Helper()
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195 { VSsSemEnv *semanticEnv;
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196 int32 i, coreNum, slotNum;
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197 VSsSemData *semData;
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198
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199 //Hook up the semantic layer's plug-ins to the Master virt procr
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200 _VMSMasterEnv->requestHandler = &VSs__Request_Handler;
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201 _VMSMasterEnv->slaveAssigner = &VSs__assign_slaveVP_to_slot;
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202
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203 //create the semantic layer's environment (all its data) and add to
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204 // the master environment
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205 semanticEnv = VMS_int__malloc( sizeof( VSsSemEnv ) );
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206 _VMSMasterEnv->semanticEnv = semanticEnv;
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207
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208 #ifdef HOLISTIC__TURN_ON_PERF_COUNTERS
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209 _VMSMasterEnv->counterHandler = &VSs__counter_handler;
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210 VSs__init_counter_data_structs();
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211 #endif
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212
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213 //semanticEnv->shutdownInitiated = FALSE;
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214 semanticEnv->coreIsDone = VMS_int__malloc( NUM_CORES * sizeof( bool32 ) );
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215 semanticEnv->numCoresDone = 0;
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216 //For each animation slot, there is an idle slave, and an initial
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217 // slave assigned as the current-task-slave. Create them here.
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218 SlaveVP *idleSlv, *slotTaskSlv;
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219 for( coreNum = 0; coreNum < NUM_CORES; coreNum++ )
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220 { semanticEnv->coreIsDone[coreNum] = FALSE; //use during shutdown
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221
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222 for( slotNum = 0; slotNum < NUM_ANIM_SLOTS; ++slotNum )
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223 {
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224 #ifdef IDLE_SLAVES
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225 idleSlv = VSs__create_slave_helper( &VSs__run_thread, &idle_fn, NULL, semanticEnv, 0);
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226 idleSlv->coreAnimatedBy = coreNum;
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227 idleSlv->animSlotAssignedTo =
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228 _VMSMasterEnv->allAnimSlots[coreNum][slotNum];
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229 semanticEnv->idleSlv[coreNum][slotNum] = idleSlv;
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230 #endif
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231
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232 slotTaskSlv = VSs__create_slave_helper(&VSs__run_thread, &idle_fn, NULL, semanticEnv, 0);
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233 slotTaskSlv->coreAnimatedBy = coreNum;
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234 slotTaskSlv->animSlotAssignedTo =
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235 _VMSMasterEnv->allAnimSlots[coreNum][slotNum];
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236
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237 semData = slotTaskSlv->semanticData;
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238 semData->needsTaskAssigned = TRUE;
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239 semData->slaveType = SlotTaskSlv;
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240 semanticEnv->slotTaskSlvs[coreNum][slotNum] = slotTaskSlv;
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241 }
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242 }
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243
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244 //create the ready queues, hash tables used for matching and so forth
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245 semanticEnv->slavesReadyToResumeQ = makeVMSQ();
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246 semanticEnv->freeExtraTaskSlvQ = makeVMSQ();
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247 semanticEnv->taskReadyQ = makeVMSQ();
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248 semanticEnv->barrierQ = makeVMSQ();
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249
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250 semanticEnv->argPtrHashTbl = makeHashTable32( 20, &free_pointer_entry );
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251 semanticEnv->commHashTbl = makeHashTable32( 16, &VMS_int__free );
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252 semanticEnv->criticalHashTbl = makeHashTable32( 16, &VMS_int__free );
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253
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254 semanticEnv->nextCoreToGetNewSlv = 0;
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255
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256 semanticEnv->numInFlightTasks = 0;
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257 semanticEnv->deferredSubmitsQ = makeVMSQ();
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258 #ifdef EXTERNAL_SCHEDULER
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259 VSs__init_ext_scheduler();
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260 #endif
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261 //TODO: bug -- turn these arrays into dyn arrays to eliminate limit
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262 //semanticEnv->singletonHasBeenExecutedFlags = makeDynArrayInfo( );
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263 //semanticEnv->transactionStrucs = makeDynArrayInfo( );
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264 for( i = 0; i < NUM_STRUCS_IN_SEM_ENV; i++ )
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265 {
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266 semanticEnv->fnSingletons[i].endInstrAddr = NULL;
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267 semanticEnv->fnSingletons[i].hasBeenStarted = FALSE;
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268 semanticEnv->fnSingletons[i].hasFinished = FALSE;
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269 semanticEnv->fnSingletons[i].waitQ = makeVMSQ();
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270 semanticEnv->transactionStrucs[i].waitingVPQ = makeVMSQ();
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271 }
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272
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273 semanticEnv->numLiveExtraTaskSlvs = 0; //must be last
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274 semanticEnv->numLiveThreadSlvs = 1; //must be last, counts the seed
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275
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276 #ifdef HOLISTIC__TURN_ON_OBSERVE_UCC
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277 semanticEnv->unitList = makeListOfArrays(sizeof(Unit),128);
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278 semanticEnv->ctlDependenciesList = makeListOfArrays(sizeof(Dependency),128);
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279 semanticEnv->commDependenciesList = makeListOfArrays(sizeof(Dependency),128);
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|
seanhalle@6
|
280 semanticEnv->dynDependenciesList = makeListOfArrays(sizeof(Dependency),128);
|
|
nengel@16
|
281 semanticEnv->dataDependenciesList = makeListOfArrays(sizeof(Dependency),128);
|
|
nengel@16
|
282 semanticEnv->singletonDependenciesList = makeListOfArrays(sizeof(Dependency),128);
|
|
nengel@17
|
283 semanticEnv->warDependenciesList = makeListOfArrays(sizeof(Dependency),128);
|
|
seanhalle@6
|
284 semanticEnv->ntonGroupsInfo = makePrivDynArrayOfSize((void***)&(semanticEnv->ntonGroups),8);
|
|
seanhalle@6
|
285
|
|
seanhalle@6
|
286 semanticEnv->hwArcs = makeListOfArrays(sizeof(Dependency),128);
|
|
seanhalle@6
|
287 memset(semanticEnv->last_in_slot,0,sizeof(NUM_CORES * NUM_ANIM_SLOTS * sizeof(Unit)));
|
|
seanhalle@6
|
288 #endif
|
|
seanhalle@0
|
289 }
|
|
seanhalle@0
|
290
|
|
seanhalle@0
|
291
|
|
seanhalle@2
|
292 /*Frees any memory allocated by VSs__init() then calls VMS_int__shutdown
|
|
seanhalle@0
|
293 */
|
|
seanhalle@0
|
294 void
|
|
seanhalle@2
|
295 VSs__cleanup_after_shutdown()
|
|
seanhalle@2
|
296 { VSsSemEnv *semanticEnv;
|
|
seanhalle@0
|
297
|
|
seanhalle@0
|
298 semanticEnv = _VMSMasterEnv->semanticEnv;
|
|
nengel@20
|
299
|
|
nengel@20
|
300 #ifdef HOLISTIC__TURN_ON_OBSERVE_UCC
|
|
seanhalle@0
|
301 FILE* output;
|
|
seanhalle@0
|
302 int n;
|
|
nengel@20
|
303 char filename[255];
|
|
nengel@18
|
304 //UCC
|
|
seanhalle@0
|
305 for(n=0;n<255;n++)
|
|
seanhalle@0
|
306 {
|
|
seanhalle@0
|
307 sprintf(filename, "./counters/UCC.%d",n);
|
|
seanhalle@0
|
308 output = fopen(filename,"r");
|
|
seanhalle@0
|
309 if(output)
|
|
seanhalle@0
|
310 {
|
|
seanhalle@0
|
311 fclose(output);
|
|
seanhalle@0
|
312 }else{
|
|
seanhalle@0
|
313 break;
|
|
seanhalle@0
|
314 }
|
|
seanhalle@0
|
315 }
|
|
seanhalle@0
|
316 if(n<255){
|
|
seanhalle@0
|
317 printf("Saving UCC to File: %s ...\n", filename);
|
|
seanhalle@0
|
318 output = fopen(filename,"w+");
|
|
seanhalle@0
|
319 if(output!=NULL){
|
|
seanhalle@0
|
320 set_dependency_file(output);
|
|
seanhalle@0
|
321 //fprintf(output,"digraph Dependencies {\n");
|
|
seanhalle@0
|
322 //set_dot_file(output);
|
|
seanhalle@0
|
323 //FIXME: first line still depends on counters being enabled, replace w/ unit struct!
|
|
seanhalle@0
|
324 //forAllInDynArrayDo(_VMSMasterEnv->counter_history_array_info, &print_dot_node_info );
|
|
seanhalle@0
|
325 forAllInListOfArraysDo(semanticEnv->unitList, &print_unit_to_file);
|
|
seanhalle@0
|
326 forAllInListOfArraysDo( semanticEnv->commDependenciesList, &print_comm_dependency_to_file );
|
|
seanhalle@0
|
327 forAllInListOfArraysDo( semanticEnv->ctlDependenciesList, &print_ctl_dependency_to_file );
|
|
nengel@16
|
328 forAllInListOfArraysDo( semanticEnv->dataDependenciesList, &print_data_dependency_to_file );
|
|
nengel@16
|
329 forAllInListOfArraysDo( semanticEnv->singletonDependenciesList, &print_singleton_dependency_to_file );
|
|
nengel@17
|
330 forAllInListOfArraysDo( semanticEnv->warDependenciesList, &print_war_dependency_to_file );
|
|
seanhalle@0
|
331 forAllInDynArrayDo(semanticEnv->ntonGroupsInfo,&print_nton_to_file);
|
|
seanhalle@0
|
332 //fprintf(output,"}\n");
|
|
seanhalle@0
|
333 fflush(output);
|
|
seanhalle@0
|
334
|
|
seanhalle@0
|
335 } else
|
|
seanhalle@0
|
336 printf("Opening UCC file failed. Please check that folder \"counters\" exists in run directory and has write permission.\n");
|
|
seanhalle@0
|
337 } else {
|
|
seanhalle@0
|
338 printf("Could not open UCC file, please clean \"counters\" folder. (Must contain less than 255 files.)\n");
|
|
seanhalle@0
|
339 }
|
|
seanhalle@0
|
340 //Loop Graph
|
|
seanhalle@0
|
341 for(n=0;n<255;n++)
|
|
seanhalle@0
|
342 {
|
|
seanhalle@0
|
343 sprintf(filename, "./counters/LoopGraph.%d",n);
|
|
seanhalle@0
|
344 output = fopen(filename,"r");
|
|
seanhalle@0
|
345 if(output)
|
|
seanhalle@0
|
346 {
|
|
seanhalle@0
|
347 fclose(output);
|
|
seanhalle@0
|
348 }else{
|
|
seanhalle@0
|
349 break;
|
|
seanhalle@0
|
350 }
|
|
seanhalle@0
|
351 }
|
|
seanhalle@0
|
352 if(n<255){
|
|
seanhalle@0
|
353 printf("Saving LoopGraph to File: %s ...\n", filename);
|
|
seanhalle@0
|
354 output = fopen(filename,"w+");
|
|
seanhalle@0
|
355 if(output!=NULL){
|
|
seanhalle@0
|
356 set_dependency_file(output);
|
|
seanhalle@0
|
357 //fprintf(output,"digraph Dependencies {\n");
|
|
seanhalle@0
|
358 //set_dot_file(output);
|
|
seanhalle@0
|
359 //FIXME: first line still depends on counters being enabled, replace w/ unit struct!
|
|
seanhalle@0
|
360 //forAllInDynArrayDo(_VMSMasterEnv->counter_history_array_info, &print_dot_node_info );
|
|
seanhalle@0
|
361 forAllInListOfArraysDo( semanticEnv->unitList, &print_unit_to_file );
|
|
seanhalle@0
|
362 forAllInListOfArraysDo( semanticEnv->commDependenciesList, &print_comm_dependency_to_file );
|
|
seanhalle@0
|
363 forAllInListOfArraysDo( semanticEnv->ctlDependenciesList, &print_ctl_dependency_to_file );
|
|
nengel@16
|
364 forAllInListOfArraysDo( semanticEnv->dataDependenciesList, &print_data_dependency_to_file );
|
|
nengel@16
|
365 forAllInListOfArraysDo( semanticEnv->singletonDependenciesList, &print_singleton_dependency_to_file );
|
|
seanhalle@0
|
366 forAllInListOfArraysDo( semanticEnv->dynDependenciesList, &print_dyn_dependency_to_file );
|
|
nengel@17
|
367 forAllInListOfArraysDo( semanticEnv->warDependenciesList, &print_war_dependency_to_file );
|
|
seanhalle@0
|
368 forAllInListOfArraysDo( semanticEnv->hwArcs, &print_hw_dependency_to_file );
|
|
seanhalle@0
|
369 //fprintf(output,"}\n");
|
|
seanhalle@0
|
370 fflush(output);
|
|
seanhalle@0
|
371
|
|
seanhalle@0
|
372 } else
|
|
seanhalle@0
|
373 printf("Opening LoopGraph file failed. Please check that folder \"counters\" exists in run directory and has write permission.\n");
|
|
seanhalle@0
|
374 } else {
|
|
seanhalle@0
|
375 printf("Could not open LoopGraph file, please clean \"counters\" folder. (Must contain less than 255 files.)\n");
|
|
seanhalle@0
|
376 }
|
|
seanhalle@0
|
377
|
|
seanhalle@0
|
378
|
|
seanhalle@0
|
379 freeListOfArrays(semanticEnv->unitList);
|
|
seanhalle@0
|
380 freeListOfArrays(semanticEnv->commDependenciesList);
|
|
seanhalle@0
|
381 freeListOfArrays(semanticEnv->ctlDependenciesList);
|
|
seanhalle@0
|
382 freeListOfArrays(semanticEnv->dynDependenciesList);
|
|
nengel@16
|
383 freeListOfArrays(semanticEnv->dataDependenciesList);
|
|
nengel@17
|
384 freeListOfArrays(semanticEnv->warDependenciesList);
|
|
nengel@17
|
385 freeListOfArrays(semanticEnv->singletonDependenciesList);
|
|
nengel@17
|
386 freeListOfArrays(semanticEnv->hwArcs);
|
|
seanhalle@0
|
387
|
|
seanhalle@0
|
388 #endif
|
|
nengel@20
|
389 #ifdef HOLISTIC__TURN_ON_PERF_COUNTERS
|
|
nengel@20
|
390 FILE* output2;
|
|
nengel@20
|
391 int n2;
|
|
nengel@20
|
392 char filename2[255];
|
|
nengel@20
|
393 for(n2=0;n2<255;n2++)
|
|
seanhalle@0
|
394 {
|
|
nengel@20
|
395 sprintf(filename2, "./counters/Counters.%d.csv",n2);
|
|
nengel@20
|
396 output2 = fopen(filename2,"r");
|
|
nengel@20
|
397 if(output2)
|
|
seanhalle@0
|
398 {
|
|
nengel@20
|
399 fclose(output2);
|
|
seanhalle@0
|
400 }else{
|
|
seanhalle@0
|
401 break;
|
|
seanhalle@0
|
402 }
|
|
seanhalle@0
|
403 }
|
|
nengel@20
|
404 if(n2<255){
|
|
nengel@20
|
405 printf("Saving Counter measurements to File: %s ...\n", filename2);
|
|
nengel@20
|
406 output2 = fopen(filename2,"w+");
|
|
nengel@20
|
407 if(output2!=NULL){
|
|
nengel@20
|
408 set_counter_file(output2);
|
|
seanhalle@0
|
409 int i;
|
|
seanhalle@0
|
410 for(i=0;i<NUM_CORES;i++){
|
|
seanhalle@0
|
411 forAllInListOfArraysDo( semanticEnv->counterList[i], &print_counter_events_to_file );
|
|
nengel@20
|
412 fflush(output2);
|
|
seanhalle@0
|
413 }
|
|
seanhalle@0
|
414
|
|
seanhalle@0
|
415 } else
|
|
seanhalle@0
|
416 printf("Opening UCC file failed. Please check that folder \"counters\" exists in run directory and has write permission.\n");
|
|
seanhalle@0
|
417 } else {
|
|
seanhalle@0
|
418 printf("Could not open UCC file, please clean \"counters\" folder. (Must contain less than 255 files.)\n");
|
|
seanhalle@0
|
419 }
|
|
seanhalle@0
|
420
|
|
seanhalle@0
|
421 #endif
|
|
nengel@22
|
422 /* It's all allocated inside VMS's big chunk -- that's about to be freed, so
|
|
nengel@22
|
423 * nothing to do here */
|
|
nengel@33
|
424 //_VMSMasterEnv->shutdownInitiated = TRUE;
|
|
nengel@22
|
425 int coreIdx, slotIdx;
|
|
nengel@22
|
426 SlaveVP* slotSlv;
|
|
nengel@22
|
427 for (coreIdx = 0; coreIdx < NUM_CORES; coreIdx++) {
|
|
nengel@22
|
428 for (slotIdx = 0; slotIdx < NUM_ANIM_SLOTS; slotIdx++) {
|
|
nengel@22
|
429 slotSlv = semanticEnv->slotTaskSlvs[coreIdx][slotIdx];
|
|
nengel@22
|
430 VMS_int__free(slotSlv->semanticData);
|
|
nengel@33
|
431 VMS_int__dissipate_slaveVP(slotSlv);
|
|
nengel@22
|
432 #ifdef IDLE_SLAVES
|
|
nengel@22
|
433 slotSlv = semanticEnv->idleSlv[coreIdx][slotIdx];
|
|
nengel@22
|
434 VMS_int__free(slotSlv->semanticData);
|
|
nengel@33
|
435 VMS_int__dissipate_slaveVP(slotSlv);
|
|
nengel@22
|
436 #endif
|
|
nengel@22
|
437 }
|
|
nengel@22
|
438 }
|
|
nengel@33
|
439 int i;
|
|
nengel@33
|
440 for (i = 0; i < NUM_STRUCS_IN_SEM_ENV; i++) {
|
|
nengel@33
|
441 freePrivQ(semanticEnv->fnSingletons[i].waitQ);
|
|
nengel@33
|
442 freePrivQ(semanticEnv->transactionStrucs[i].waitingVPQ);
|
|
nengel@33
|
443 }
|
|
seanhalle@0
|
444
|
|
nengel@22
|
445 freePrivQ(semanticEnv->freeExtraTaskSlvQ);
|
|
nengel@22
|
446 freePrivQ(semanticEnv->slavesReadyToResumeQ);
|
|
nengel@22
|
447 freePrivQ(semanticEnv->taskReadyQ);
|
|
nengel@43
|
448 freePrivQ(semanticEnv->barrierQ);
|
|
nengel@33
|
449 freePrivQ(semanticEnv->deferredSubmitsQ);
|
|
nengel@33
|
450 freeHashTable(semanticEnv->argPtrHashTbl);
|
|
nengel@33
|
451 freeHashTable(semanticEnv->commHashTbl);
|
|
nengel@39
|
452 freeHashTable(semanticEnv->criticalHashTbl);
|
|
nengel@33
|
453 VMS_int__free(semanticEnv->coreIsDone);
|
|
nengel@33
|
454 VMS_int__free(_VMSMasterEnv->semanticEnv);
|
|
nengel@33
|
455
|
|
nengel@33
|
456 VMS_SS__cleanup_at_end_of_shutdown();
|
|
nengel@33
|
457 }
|
|
seanhalle@0
|
458
|
|
seanhalle@0
|
459
|
|
seanhalle@0
|
460 //===========================================================================
|
|
seanhalle@0
|
461
|
|
seanhalle@2
|
462 SlaveVP *
|
|
seanhalle@7
|
463 VSs__create_thread( TopLevelFnPtr fnPtr, void *initData,
|
|
seanhalle@7
|
464 SlaveVP *creatingThd )
|
|
seanhalle@2
|
465 { VSsSemReq reqData;
|
|
seanhalle@0
|
466
|
|
seanhalle@0
|
467 //the semantic request data is on the stack and disappears when this
|
|
seanhalle@0
|
468 // call returns -- it's guaranteed to remain in the VP's stack for as
|
|
seanhalle@0
|
469 // long as the VP is suspended.
|
|
seanhalle@0
|
470 reqData.reqType = 0; //know type because in a VMS create req
|
|
seanhalle@0
|
471 reqData.fnPtr = fnPtr;
|
|
seanhalle@0
|
472 reqData.initData = initData;
|
|
seanhalle@7
|
473 reqData.callingSlv = creatingThd;
|
|
seanhalle@0
|
474
|
|
seanhalle@7
|
475 VMS_WL__send_create_slaveVP_req( &reqData, creatingThd );
|
|
seanhalle@0
|
476
|
|
seanhalle@7
|
477 return creatingThd->dataRetFromReq;
|
|
seanhalle@0
|
478 }
|
|
seanhalle@0
|
479
|
|
seanhalle@10
|
480 /*This is always the last thing done in the code animated by a thread VP.
|
|
seanhalle@7
|
481 * Normally, this would be the last line of the thread's top level function.
|
|
seanhalle@7
|
482 * But, if the thread exits from any point, it has to do so by calling
|
|
seanhalle@7
|
483 * this.
|
|
seanhalle@10
|
484 *
|
|
seanhalle@10
|
485 *It simply sends a dissipate request, which handles all the state cleanup.
|
|
seanhalle@7
|
486 */
|
|
seanhalle@2
|
487 void
|
|
nengel@37
|
488 VSs__end_thread()
|
|
nengel@20
|
489 {
|
|
seanhalle@8
|
490
|
|
nengel@37
|
491 VMS_WL__send_dissipate_req( currVP );
|
|
seanhalle@0
|
492 }
|
|
seanhalle@0
|
493
|
|
nengel@38
|
494 void VSs__run_thread(TopLevelFnPtr fnPtr, void *initData){
|
|
nengel@38
|
495 (*fnPtr)(initData);
|
|
nengel@38
|
496 VSs__end_thread();
|
|
nengel@38
|
497 }
|
|
seanhalle@10
|
498
|
|
seanhalle@0
|
499 //===========================================================================
|
|
seanhalle@0
|
500
|
|
seanhalle@0
|
501
|
|
seanhalle@4
|
502 //======================= task submit and end ==============================
|
|
nengel@39
|
503
|
|
seanhalle@4
|
504 /*
|
|
seanhalle@2
|
505 */
|
|
nengel@39
|
506 void VSs__submit_task(VSsTaskType *taskType, void *args, void* deps) {
|
|
nengel@39
|
507 VSsSemReq reqData;
|
|
seanhalle@0
|
508
|
|
nengel@39
|
509 reqData.reqType = submit_task;
|
|
nengel@39
|
510
|
|
nengel@39
|
511 reqData.taskType = taskType;
|
|
nengel@39
|
512 reqData.args = args;
|
|
nengel@39
|
513 reqData.deps = deps;
|
|
nengel@39
|
514 reqData.callingSlv = currVP;
|
|
nengel@39
|
515
|
|
nengel@39
|
516 reqData.taskID = NULL;
|
|
nengel@39
|
517
|
|
nengel@39
|
518 VMS_WL__send_sem_request(&reqData, currVP);
|
|
nengel@39
|
519 }
|
|
seanhalle@0
|
520
|
|
nengel@20
|
521 int32 *
|
|
nengel@37
|
522 VSs__create_taskID_of_size( int32 numInts)
|
|
seanhalle@4
|
523 { int32 *taskID;
|
|
seanhalle@4
|
524
|
|
seanhalle@4
|
525 taskID = VMS_WL__malloc( sizeof(int32) + numInts * sizeof(int32) );
|
|
seanhalle@4
|
526 taskID[0] = numInts;
|
|
seanhalle@4
|
527 return taskID;
|
|
nengel@39
|
528 }
|
|
seanhalle@4
|
529
|
|
nengel@39
|
530 void VSs__submit_task_with_ID(VSsTaskType *taskType, void *args, void* deps, int32 *taskID) {
|
|
nengel@39
|
531 VSsSemReq reqData;
|
|
seanhalle@4
|
532
|
|
nengel@39
|
533 reqData.reqType = submit_task;
|
|
nengel@39
|
534
|
|
nengel@39
|
535 reqData.taskType = taskType;
|
|
nengel@39
|
536 reqData.args = args;
|
|
nengel@39
|
537 reqData.deps = deps;
|
|
nengel@39
|
538 reqData.taskID = taskID;
|
|
nengel@39
|
539 reqData.callingSlv = currVP;
|
|
nengel@39
|
540
|
|
nengel@39
|
541 VMS_WL__send_sem_request(&reqData, currVP);
|
|
nengel@39
|
542 }
|
|
seanhalle@4
|
543
|
|
seanhalle@4
|
544
|
|
seanhalle@4
|
545 /*This call is the last to happen in every task. It causes the slave to
|
|
seanhalle@2
|
546 * suspend and get the next task out of the task-queue. Notice there is no
|
|
seanhalle@2
|
547 * assigner here.. only one slave, no slave ReadyQ, and so on..
|
|
seanhalle@2
|
548 *Can either make the assigner take the next task out of the taskQ, or can
|
|
seanhalle@2
|
549 * leave all as it is, and make task-end take the next task.
|
|
seanhalle@2
|
550 *Note: this fits the case in the new VMS for no-context tasks, so will use
|
|
seanhalle@2
|
551 * the built-in taskQ of new VMS, and should be local and much faster.
|
|
seanhalle@2
|
552 *
|
|
seanhalle@2
|
553 *The task-stub is saved in the animSlv, so the request handler will get it
|
|
seanhalle@2
|
554 * from there, along with the task-type which has arg types, and so on..
|
|
seanhalle@4
|
555 *
|
|
seanhalle@4
|
556 * NOTE: if want, don't need to send the animating SlaveVP around..
|
|
seanhalle@4
|
557 * instead, can make a single slave per core, and coreCtrlr looks up the
|
|
seanhalle@4
|
558 * slave from having the core number.
|
|
seanhalle@4
|
559 *
|
|
seanhalle@4
|
560 *But, to stay compatible with all the other VMS languages, leave it in..
|
|
seanhalle@0
|
561 */
|
|
seanhalle@0
|
562 void
|
|
nengel@37
|
563 VSs__end_task()
|
|
seanhalle@2
|
564 { VSsSemReq reqData;
|
|
seanhalle@0
|
565
|
|
seanhalle@2
|
566 reqData.reqType = end_task;
|
|
nengel@37
|
567 reqData.callingSlv = currVP;
|
|
seanhalle@2
|
568
|
|
nengel@37
|
569 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
570 }
|
|
seanhalle@0
|
571
|
|
nengel@38
|
572 void VSs__run_task(TopLevelFnPtr fnPtr, void *initData){
|
|
nengel@38
|
573 (*fnPtr)(initData);
|
|
nengel@38
|
574 VSs__end_task();
|
|
nengel@38
|
575 }
|
|
seanhalle@4
|
576
|
|
nengel@5
|
577 void
|
|
nengel@37
|
578 VSs__taskwait()
|
|
nengel@5
|
579 {
|
|
nengel@5
|
580 VSsSemReq reqData;
|
|
nengel@5
|
581
|
|
nengel@5
|
582 reqData.reqType = taskwait;
|
|
nengel@37
|
583 reqData.callingSlv = currVP;
|
|
nengel@5
|
584
|
|
nengel@37
|
585 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@5
|
586 }
|
|
nengel@5
|
587
|
|
nengel@21
|
588 void
|
|
nengel@37
|
589 VSs__taskwait_on(void* ptr){
|
|
nengel@21
|
590 VSsSemReq reqData;
|
|
nengel@5
|
591
|
|
nengel@21
|
592 reqData.reqType = taskwait_on;
|
|
nengel@37
|
593 reqData.callingSlv = currVP;
|
|
nengel@21
|
594
|
|
nengel@21
|
595 reqData.args = ptr;
|
|
nengel@21
|
596
|
|
nengel@37
|
597 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@21
|
598 }
|
|
nengel@21
|
599
|
|
nengel@21
|
600 void
|
|
nengel@39
|
601 VSs__start_critical(void* lock){
|
|
nengel@21
|
602 VSsSemReq reqData;
|
|
nengel@21
|
603
|
|
nengel@21
|
604 reqData.reqType = critical_start;
|
|
nengel@37
|
605 reqData.callingSlv = currVP;
|
|
nengel@21
|
606
|
|
nengel@39
|
607 reqData.criticalID = lock;
|
|
nengel@21
|
608
|
|
nengel@37
|
609 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@21
|
610 }
|
|
nengel@21
|
611
|
|
nengel@21
|
612 void
|
|
nengel@39
|
613 VSs__end_critical(void* lock){
|
|
nengel@21
|
614 VSsSemReq reqData;
|
|
nengel@21
|
615
|
|
nengel@21
|
616 reqData.reqType = critical_end;
|
|
nengel@37
|
617 reqData.callingSlv = currVP;
|
|
nengel@21
|
618
|
|
nengel@39
|
619 reqData.criticalID = lock;
|
|
nengel@21
|
620
|
|
nengel@37
|
621 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@21
|
622 }
|
|
nengel@5
|
623
|
|
seanhalle@4
|
624 //========================== send and receive ============================
|
|
seanhalle@4
|
625 //
|
|
seanhalle@4
|
626
|
|
nengel@20
|
627 int32 *
|
|
nengel@37
|
628 VSs__give_self_taskID()
|
|
seanhalle@4
|
629 {
|
|
nengel@37
|
630 return ((VSsSemData*)currVP->semanticData)->taskStub->taskID;
|
|
seanhalle@4
|
631 }
|
|
seanhalle@4
|
632
|
|
seanhalle@4
|
633 //================================ send ===================================
|
|
seanhalle@4
|
634
|
|
seanhalle@4
|
635 void
|
|
nengel@37
|
636 VSs__send_of_type_to( void *msg, const int32 type, int32 *receiverID)
|
|
seanhalle@4
|
637 { VSsSemReq reqData;
|
|
seanhalle@4
|
638
|
|
seanhalle@4
|
639 reqData.reqType = send_type_to;
|
|
seanhalle@4
|
640
|
|
seanhalle@4
|
641 reqData.msg = msg;
|
|
seanhalle@4
|
642 reqData.msgType = type;
|
|
seanhalle@4
|
643 reqData.receiverID = receiverID;
|
|
nengel@37
|
644 reqData.senderSlv = currVP;
|
|
seanhalle@4
|
645
|
|
seanhalle@4
|
646 reqData.nextReqInHashEntry = NULL;
|
|
seanhalle@4
|
647
|
|
nengel@37
|
648 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@4
|
649
|
|
seanhalle@4
|
650 //When come back from suspend, no longer own data reachable from msg
|
|
seanhalle@4
|
651 }
|
|
seanhalle@4
|
652
|
|
seanhalle@4
|
653 void
|
|
nengel@37
|
654 VSs__send_from_to( void *msg, int32 *senderID, int32 *receiverID)
|
|
seanhalle@4
|
655 { VSsSemReq reqData;
|
|
seanhalle@4
|
656
|
|
seanhalle@4
|
657 reqData.reqType = send_from_to;
|
|
seanhalle@4
|
658
|
|
seanhalle@4
|
659 reqData.msg = msg;
|
|
seanhalle@4
|
660 reqData.senderID = senderID;
|
|
seanhalle@4
|
661 reqData.receiverID = receiverID;
|
|
nengel@37
|
662 reqData.senderSlv = currVP;
|
|
seanhalle@4
|
663
|
|
seanhalle@4
|
664 reqData.nextReqInHashEntry = NULL;
|
|
seanhalle@4
|
665
|
|
nengel@37
|
666 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@4
|
667 }
|
|
seanhalle@4
|
668
|
|
seanhalle@4
|
669
|
|
seanhalle@4
|
670 //================================ receive ================================
|
|
seanhalle@4
|
671
|
|
seanhalle@4
|
672 /*The "type" version of send and receive creates a many-to-one relationship.
|
|
seanhalle@4
|
673 * The sender is anonymous, and many sends can stack up, waiting to be
|
|
seanhalle@4
|
674 * received. The same receiver can also have send from-to's
|
|
seanhalle@4
|
675 * waiting for it, and those will be kept separate from the "type"
|
|
seanhalle@4
|
676 * messages.
|
|
seanhalle@4
|
677 */
|
|
seanhalle@4
|
678 void *
|
|
nengel@37
|
679 VSs__receive_type_to( const int32 type, int32* receiverID )
|
|
seanhalle@4
|
680 { DEBUG__printf1(dbgRqstHdlr,"WL: receive type to %d",receiverID[1] );
|
|
seanhalle@4
|
681 VSsSemReq reqData;
|
|
seanhalle@4
|
682
|
|
seanhalle@4
|
683 reqData.reqType = receive_type_to;
|
|
seanhalle@4
|
684
|
|
seanhalle@4
|
685 reqData.msgType = type;
|
|
seanhalle@4
|
686 reqData.receiverID = receiverID;
|
|
nengel@37
|
687 reqData.receiverSlv = currVP;
|
|
seanhalle@4
|
688
|
|
seanhalle@4
|
689 reqData.nextReqInHashEntry = NULL;
|
|
seanhalle@4
|
690
|
|
nengel@37
|
691 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@4
|
692
|
|
nengel@37
|
693 return currVP->dataRetFromReq;
|
|
seanhalle@4
|
694 }
|
|
seanhalle@4
|
695
|
|
seanhalle@4
|
696
|
|
seanhalle@4
|
697
|
|
seanhalle@4
|
698 /*Call this at the point a receiving task wants in-coming data.
|
|
seanhalle@4
|
699 * Use this from-to form when know senderID -- it makes a direct channel
|
|
seanhalle@4
|
700 * between sender and receiver.
|
|
seanhalle@4
|
701 */
|
|
seanhalle@4
|
702 void *
|
|
nengel@37
|
703 VSs__receive_from_to( int32 *senderID, int32 *receiverID)
|
|
seanhalle@4
|
704 {
|
|
seanhalle@4
|
705 VSsSemReq reqData;
|
|
seanhalle@4
|
706
|
|
seanhalle@4
|
707 reqData.reqType = receive_from_to;
|
|
seanhalle@4
|
708
|
|
seanhalle@4
|
709 reqData.senderID = senderID;
|
|
seanhalle@4
|
710 reqData.receiverID = receiverID;
|
|
nengel@37
|
711 reqData.receiverSlv = currVP;
|
|
seanhalle@4
|
712
|
|
seanhalle@4
|
713 reqData.nextReqInHashEntry = NULL;
|
|
seanhalle@4
|
714 DEBUG__printf2(dbgRqstHdlr,"WL: receive from %d to: %d", reqData.senderID[1], reqData.receiverID[1]);
|
|
seanhalle@4
|
715
|
|
nengel@37
|
716 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@4
|
717
|
|
nengel@37
|
718 return currVP->dataRetFromReq;
|
|
seanhalle@4
|
719 }
|
|
seanhalle@4
|
720
|
|
seanhalle@4
|
721
|
|
seanhalle@4
|
722
|
|
seanhalle@4
|
723
|
|
seanhalle@2
|
724 //==========================================================================
|
|
seanhalle@0
|
725 //
|
|
seanhalle@0
|
726 /*A function singleton is a function whose body executes exactly once, on a
|
|
seanhalle@0
|
727 * single core, no matter how many times the fuction is called and no
|
|
seanhalle@0
|
728 * matter how many cores or the timing of cores calling it.
|
|
seanhalle@0
|
729 *
|
|
seanhalle@0
|
730 *A data singleton is a ticket attached to data. That ticket can be used
|
|
seanhalle@0
|
731 * to get the data through the function exactly once, no matter how many
|
|
seanhalle@0
|
732 * times the data is given to the function, and no matter the timing of
|
|
seanhalle@0
|
733 * trying to get the data through from different cores.
|
|
seanhalle@0
|
734 */
|
|
seanhalle@0
|
735
|
|
seanhalle@0
|
736 /*asm function declarations*/
|
|
seanhalle@2
|
737 void asm_save_ret_to_singleton(VSsSingleton *singletonPtrAddr);
|
|
seanhalle@2
|
738 void asm_write_ret_from_singleton(VSsSingleton *singletonPtrAddr);
|
|
seanhalle@0
|
739
|
|
seanhalle@0
|
740 /*Fn singleton uses ID as index into array of singleton structs held in the
|
|
seanhalle@0
|
741 * semantic environment.
|
|
seanhalle@0
|
742 */
|
|
seanhalle@0
|
743 void
|
|
nengel@37
|
744 VSs__start_fn_singleton( int32 singletonID)
|
|
seanhalle@0
|
745 {
|
|
seanhalle@2
|
746 VSsSemReq reqData;
|
|
seanhalle@0
|
747
|
|
seanhalle@0
|
748 //
|
|
seanhalle@0
|
749 reqData.reqType = singleton_fn_start;
|
|
seanhalle@0
|
750 reqData.singletonID = singletonID;
|
|
seanhalle@0
|
751
|
|
nengel@37
|
752 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@37
|
753 if( currVP->dataRetFromReq ) //will be 0 or addr of label in end singleton
|
|
seanhalle@0
|
754 {
|
|
nengel@37
|
755 VSsSemEnv *semEnv = VMS_int__give_sem_env_for( currVP );
|
|
seanhalle@0
|
756 asm_write_ret_from_singleton(&(semEnv->fnSingletons[ singletonID]));
|
|
seanhalle@0
|
757 }
|
|
seanhalle@0
|
758 }
|
|
seanhalle@0
|
759
|
|
seanhalle@0
|
760 /*Data singleton hands addr of loc holding a pointer to a singleton struct.
|
|
seanhalle@0
|
761 * The start_data_singleton makes the structure and puts its addr into the
|
|
seanhalle@0
|
762 * location.
|
|
seanhalle@0
|
763 */
|
|
seanhalle@0
|
764 void
|
|
nengel@37
|
765 VSs__start_data_singleton( VSsSingleton **singletonAddr )
|
|
seanhalle@0
|
766 {
|
|
seanhalle@2
|
767 VSsSemReq reqData;
|
|
seanhalle@0
|
768
|
|
seanhalle@0
|
769 if( *singletonAddr && (*singletonAddr)->hasFinished )
|
|
seanhalle@0
|
770 goto JmpToEndSingleton;
|
|
seanhalle@0
|
771
|
|
seanhalle@0
|
772 reqData.reqType = singleton_data_start;
|
|
seanhalle@0
|
773 reqData.singletonPtrAddr = singletonAddr;
|
|
seanhalle@0
|
774
|
|
nengel@37
|
775 VMS_WL__send_sem_request( &reqData, currVP );
|
|
nengel@37
|
776 if( currVP->dataRetFromReq ) //either 0 or end singleton's return addr
|
|
seanhalle@0
|
777 { //Assembly code changes the return addr on the stack to the one
|
|
seanhalle@0
|
778 // saved into the singleton by the end-singleton-fn
|
|
seanhalle@0
|
779 //The return addr is at 0x4(%%ebp)
|
|
seanhalle@0
|
780 JmpToEndSingleton:
|
|
seanhalle@0
|
781 asm_write_ret_from_singleton(*singletonAddr);
|
|
seanhalle@0
|
782 }
|
|
seanhalle@0
|
783 //now, simply return
|
|
seanhalle@0
|
784 //will exit either from the start singleton call or the end-singleton call
|
|
seanhalle@0
|
785 }
|
|
seanhalle@0
|
786
|
|
seanhalle@0
|
787 /*Uses ID as index into array of flags. If flag already set, resumes from
|
|
seanhalle@0
|
788 * end-label. Else, sets flag and resumes normally.
|
|
seanhalle@0
|
789 *
|
|
seanhalle@0
|
790 *Note, this call cannot be inlined because the instr addr at the label
|
|
seanhalle@0
|
791 * inside is shared by all invocations of a given singleton ID.
|
|
seanhalle@0
|
792 */
|
|
seanhalle@0
|
793 void
|
|
nengel@37
|
794 VSs__end_fn_singleton( int32 singletonID )
|
|
seanhalle@0
|
795 {
|
|
seanhalle@2
|
796 VSsSemReq reqData;
|
|
seanhalle@0
|
797
|
|
seanhalle@0
|
798 //don't need this addr until after at least one singleton has reached
|
|
seanhalle@0
|
799 // this function
|
|
nengel@37
|
800 VSsSemEnv *semEnv = VMS_int__give_sem_env_for( currVP );
|
|
seanhalle@0
|
801 asm_write_ret_from_singleton(&(semEnv->fnSingletons[ singletonID]));
|
|
seanhalle@0
|
802
|
|
seanhalle@0
|
803 reqData.reqType = singleton_fn_end;
|
|
seanhalle@0
|
804 reqData.singletonID = singletonID;
|
|
seanhalle@0
|
805
|
|
nengel@37
|
806 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
807
|
|
nengel@20
|
808 //EndSingletonInstrAddr:
|
|
seanhalle@0
|
809 return;
|
|
seanhalle@0
|
810 }
|
|
seanhalle@0
|
811
|
|
seanhalle@0
|
812 void
|
|
nengel@37
|
813 VSs__end_data_singleton( VSsSingleton **singletonPtrAddr )
|
|
seanhalle@0
|
814 {
|
|
seanhalle@2
|
815 VSsSemReq reqData;
|
|
seanhalle@0
|
816
|
|
seanhalle@0
|
817 //don't need this addr until after singleton struct has reached
|
|
seanhalle@0
|
818 // this function for first time
|
|
seanhalle@0
|
819 //do assembly that saves the return addr of this fn call into the
|
|
seanhalle@0
|
820 // data singleton -- that data-singleton can only be given to exactly
|
|
seanhalle@0
|
821 // one instance in the code of this function. However, can use this
|
|
seanhalle@0
|
822 // function in different places for different data-singletons.
|
|
seanhalle@0
|
823 // (*(singletonAddr))->endInstrAddr = &&EndDataSingletonInstrAddr;
|
|
seanhalle@0
|
824
|
|
seanhalle@0
|
825
|
|
seanhalle@0
|
826 asm_save_ret_to_singleton(*singletonPtrAddr);
|
|
seanhalle@0
|
827
|
|
seanhalle@0
|
828 reqData.reqType = singleton_data_end;
|
|
seanhalle@0
|
829 reqData.singletonPtrAddr = singletonPtrAddr;
|
|
seanhalle@0
|
830
|
|
nengel@37
|
831 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
832 }
|
|
seanhalle@0
|
833
|
|
seanhalle@0
|
834 /*This executes the function in the masterVP, so it executes in isolation
|
|
seanhalle@0
|
835 * from any other copies -- only one copy of the function can ever execute
|
|
seanhalle@0
|
836 * at a time.
|
|
seanhalle@0
|
837 *
|
|
seanhalle@0
|
838 *It suspends to the master, and the request handler takes the function
|
|
seanhalle@0
|
839 * pointer out of the request and calls it, then resumes the VP.
|
|
seanhalle@0
|
840 *Only very short functions should be called this way -- for longer-running
|
|
seanhalle@0
|
841 * isolation, use transaction-start and transaction-end, which run the code
|
|
seanhalle@0
|
842 * between as work-code.
|
|
seanhalle@0
|
843 */
|
|
seanhalle@0
|
844 void
|
|
seanhalle@2
|
845 VSs__animate_short_fn_in_isolation( PtrToAtomicFn ptrToFnToExecInMaster,
|
|
nengel@37
|
846 void *data )
|
|
seanhalle@0
|
847 {
|
|
seanhalle@2
|
848 VSsSemReq reqData;
|
|
seanhalle@0
|
849
|
|
seanhalle@0
|
850 //
|
|
seanhalle@0
|
851 reqData.reqType = atomic;
|
|
seanhalle@0
|
852 reqData.fnToExecInMaster = ptrToFnToExecInMaster;
|
|
seanhalle@0
|
853 reqData.dataForFn = data;
|
|
seanhalle@0
|
854
|
|
nengel@37
|
855 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
856 }
|
|
seanhalle@0
|
857
|
|
seanhalle@0
|
858
|
|
seanhalle@0
|
859 /*This suspends to the master.
|
|
seanhalle@0
|
860 *First, it looks at the VP's data, to see the highest transactionID that VP
|
|
seanhalle@0
|
861 * already has entered. If the current ID is not larger, it throws an
|
|
seanhalle@0
|
862 * exception stating a bug in the code. Otherwise it puts the current ID
|
|
seanhalle@0
|
863 * there, and adds the ID to a linked list of IDs entered -- the list is
|
|
seanhalle@0
|
864 * used to check that exits are properly ordered.
|
|
seanhalle@0
|
865 *Next it is uses transactionID as index into an array of transaction
|
|
seanhalle@0
|
866 * structures.
|
|
seanhalle@0
|
867 *If the "VP_currently_executing" field is non-null, then put requesting VP
|
|
seanhalle@0
|
868 * into queue in the struct. (At some point a holder will request
|
|
seanhalle@0
|
869 * end-transaction, which will take this VP from the queue and resume it.)
|
|
seanhalle@0
|
870 *If NULL, then write requesting into the field and resume.
|
|
seanhalle@0
|
871 */
|
|
seanhalle@0
|
872 void
|
|
nengel@37
|
873 VSs__start_transaction( int32 transactionID )
|
|
seanhalle@0
|
874 {
|
|
seanhalle@2
|
875 VSsSemReq reqData;
|
|
seanhalle@0
|
876
|
|
seanhalle@0
|
877 //
|
|
nengel@37
|
878 reqData.callingSlv = currVP;
|
|
seanhalle@0
|
879 reqData.reqType = trans_start;
|
|
seanhalle@0
|
880 reqData.transID = transactionID;
|
|
seanhalle@0
|
881
|
|
nengel@37
|
882 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
883 }
|
|
seanhalle@0
|
884
|
|
seanhalle@0
|
885 /*This suspends to the master, then uses transactionID as index into an
|
|
seanhalle@0
|
886 * array of transaction structures.
|
|
seanhalle@0
|
887 *It looks at VP_currently_executing to be sure it's same as requesting VP.
|
|
seanhalle@0
|
888 * If different, throws an exception, stating there's a bug in the code.
|
|
seanhalle@0
|
889 *Next it looks at the queue in the structure.
|
|
seanhalle@0
|
890 *If it's empty, it sets VP_currently_executing field to NULL and resumes.
|
|
seanhalle@0
|
891 *If something in, gets it, sets VP_currently_executing to that VP, then
|
|
seanhalle@0
|
892 * resumes both.
|
|
seanhalle@0
|
893 */
|
|
seanhalle@0
|
894 void
|
|
nengel@37
|
895 VSs__end_transaction( int32 transactionID )
|
|
seanhalle@0
|
896 {
|
|
seanhalle@2
|
897 VSsSemReq reqData;
|
|
seanhalle@0
|
898
|
|
seanhalle@0
|
899 //
|
|
nengel@37
|
900 reqData.callingSlv = currVP;
|
|
seanhalle@0
|
901 reqData.reqType = trans_end;
|
|
seanhalle@0
|
902 reqData.transID = transactionID;
|
|
seanhalle@0
|
903
|
|
nengel@37
|
904 VMS_WL__send_sem_request( &reqData, currVP );
|
|
seanhalle@0
|
905 }
|
|
seanhalle@7
|
906
|
|
seanhalle@7
|
907 //======================== Internal ==================================
|
|
seanhalle@7
|
908 /*
|
|
seanhalle@7
|
909 */
|
|
seanhalle@7
|
910 SlaveVP *
|
|
seanhalle@7
|
911 VSs__create_slave_with( TopLevelFnPtr fnPtr, void *initData,
|
|
seanhalle@7
|
912 SlaveVP *creatingSlv )
|
|
seanhalle@7
|
913 { VSsSemReq reqData;
|
|
seanhalle@7
|
914
|
|
seanhalle@7
|
915 //the semantic request data is on the stack and disappears when this
|
|
seanhalle@7
|
916 // call returns -- it's guaranteed to remain in the VP's stack for as
|
|
seanhalle@7
|
917 // long as the VP is suspended.
|
|
seanhalle@7
|
918 reqData.reqType = 0; //know type because in a VMS create req
|
|
seanhalle@7
|
919 reqData.coreToAssignOnto = -1; //means round-robin assign
|
|
seanhalle@7
|
920 reqData.fnPtr = fnPtr;
|
|
seanhalle@7
|
921 reqData.initData = initData;
|
|
seanhalle@7
|
922 reqData.callingSlv = creatingSlv;
|
|
seanhalle@7
|
923
|
|
seanhalle@7
|
924 VMS_WL__send_create_slaveVP_req( &reqData, creatingSlv );
|
|
seanhalle@7
|
925
|
|
seanhalle@7
|
926 return creatingSlv->dataRetFromReq;
|
|
seanhalle@7
|
927 }
|
|
seanhalle@7
|
928
|
|
seanhalle@7
|
929 SlaveVP *
|
|
seanhalle@7
|
930 VSs__create_slave_with_affinity( TopLevelFnPtr fnPtr, void *initData,
|
|
seanhalle@7
|
931 SlaveVP *creatingSlv, int32 coreToAssignOnto )
|
|
seanhalle@7
|
932 { VSsSemReq reqData;
|
|
seanhalle@7
|
933
|
|
seanhalle@7
|
934 //the semantic request data is on the stack and disappears when this
|
|
seanhalle@7
|
935 // call returns -- it's guaranteed to remain in the VP's stack for as
|
|
seanhalle@7
|
936 // long as the VP is suspended.
|
|
seanhalle@7
|
937 reqData.reqType = create_slave_w_aff; //not used, May 2012
|
|
seanhalle@7
|
938 reqData.coreToAssignOnto = coreToAssignOnto;
|
|
seanhalle@7
|
939 reqData.fnPtr = fnPtr;
|
|
seanhalle@7
|
940 reqData.initData = initData;
|
|
seanhalle@7
|
941 reqData.callingSlv = creatingSlv;
|
|
seanhalle@7
|
942
|
|
seanhalle@7
|
943 VMS_WL__send_create_slaveVP_req( &reqData, creatingSlv );
|
|
seanhalle@7
|
944
|
|
seanhalle@7
|
945 return creatingSlv->dataRetFromReq;
|
|
seanhalle@7
|
946 }
|
|
seanhalle@7
|
947
|
|
nengel@37
|
948 int __main_ret;
|
|
nengel@37
|
949
|
|
nengel@37
|
950 void __entry_point(void* _args) {
|
|
nengel@37
|
951 __main_args* args = (__main_args*) _args;
|
|
nengel@37
|
952 __main_ret = __program_main(args->argc, args->argv);
|
|
nengel@37
|
953 }
|
|
nengel@37
|
954
|
|
nengel@37
|
955 #undef main
|
|
nengel@37
|
956
|
|
nengel@37
|
957 int main(int argc, char** argv) {
|
|
nengel@37
|
958 __main_args args;
|
|
nengel@37
|
959 args.argc = argc;
|
|
nengel@37
|
960 args.argv = argv;
|
|
nengel@37
|
961 VSs__create_seed_slave_and_do_work(__entry_point, (void*) &args);
|
|
nengel@37
|
962 return __main_ret;
|
|
nengel@37
|
963 } |
